Your search keyword '"Julien Mutschler"' showing total 4 results

1. Enzyme catalysis with small ionic liquid quantities

Author

Julien Mutschler, Fabian Fischer, and Daniel Zufferey

Subjects

Esterification, Chemistry, Ionic Liquids, Stereoisomerism, Bioengineering, Lipase, Applied Microbiology and Biotechnology, Enzyme catalysis, Catalysis, Enzyme Activation, Solvent, Reaction rate, chemistry.chemical_compound, Chemical engineering, Biocatalysis, Glycerolysis, Ionic liquid, Solvents, Organic chemistry, Stereoselectivity, Biotechnology

Abstract

Enzyme catalysis with minimal ionic liquid quantities improves reaction rates, stereoselectivity and enables solvent-free processing. In particular the widely used lipases combine well with many ionic liquids. Demonstrated applications are racemate separation, esterification and glycerolysis. Minimal solvent processing is also an alternative to sluggish solvent-free catalysis. The method allows simplified down-stream processing, as only traces of ionic liquids have to be removed.

Published

2010

2. Effect of a Microemulsion System on Hapten-Peptide Reactivity Studies: Examples of Hydroxycitronellal and Citral, Fragrance Skin Sensitizers, with Glutathione

Author

Fabien Merckel, Jean-Pierre Lepoittevin, Guillaume Bernard, Elena Giménez-Arnau, Julien Mutschler, and G. Frank Gerberick

Subjects

Acetonitriles, tert-Butyl Alcohol, Acyclic Monoterpenes, Toxicology, Citral, Aldehyde, chemistry.chemical_compound, Organic chemistry, Microemulsion, Reactivity (chemistry), Sulfhydryl Compounds, Solubility, Skin, chemistry.chemical_classification, Carbon Isotopes, Aqueous solution, Chloroform, Hydroxycitronellal, Terpenes, Water, General Medicine, Glutathione, Perfume, Kinetics, chemistry, Monoterpenes, Emulsions, Haptens

Abstract

In chemico methods, based on the assessment of hapten reactivity toward peptides, have been proposed as alternative methods for the assessment of the skin sensitizing potential of chemicals. However, even if these approaches seem very promising, a major drawback inherent to most in vitro methods is the poor water solubility of many organic molecules in aqueous media. Thus, semiorganic media based on buffer solutions and organic cosolvents such as ethanol or acetonitrile have been proposed, but a narrow equilibrium should be found between the peptide and chemical solubilities. Microemulsions have been shown to be very valuable when reacting a lipophilic organic compound soluble in hydrophobic media with a very hydrophilic organic substance insoluble in most organic solvents. However, the reaction rate between polar and apolar reactants can be influenced, in some cases, by the use of microemulsions. On the basis of NMR experiments, we have compared the reactivity of hydroxycitronellal 1 and citral 2, two weak fragrance sensitizers of major clinical relevance, toward glutathione used as a model nucleophile in a water/acetonitrile 2:1 mixture and in a microemulsion based on chloroform/water/tert-butanol/sodium dodecylsulphate. Hydroxycitronellal and citral were found to react with the thiol group of glutathione to form, in both media, identical adducts, but the observed reaction rates were found to be different. In the case of hydroxycitronellal, the observed reaction rate of glutathione addition on the aldehyde was found to be about three times higher in the microemulsion compared to the classical semiorganic mixture. In the case of citral, the situation was more complex as the Michael addition of glutathione on the conjugated double bond was found to be significantly faster in the classical semiorganic mixture, while the subsequent reaction of a second glutathione molecule on the aldehyde was found to be faster in the microemulsion. This chloroform/water/tert-butanol/sodium dodecylsulphate microemulsion, apparently of the bicontinuous type according to DOSY data, could be of potential interest for the in chemico evaluation of lipophilic chemicals toward peptides to solve solubility problems even if the impact on the chemical rate needs to be further investigated.

Published

2010

3. Mechanistic assessment of peptide reactivity assay to predict skin allergens with Kathon CG isothiazolinones

Author

Elena Giménez-Arnau, Leslie M. Foertsch, Jean-Pierre Lepoittevin, Julien Mutschler, and G. Frank Gerberick

Subjects

Peptide, Toxicology, Animal Testing Alternatives, chemistry.chemical_compound, In vivo, Predictive Value of Tests, medicine, media_common.cataloged_instance, Reactivity (chemistry), European union, Sensitization, media_common, Skin, chemistry.chemical_classification, In vitro toxicology, General Medicine, Glutathione, Allergens, Thiazoles, medicine.anatomical_structure, Biochemistry, chemistry, Dermatitis, Allergic Contact, Peptides, Hapten, Haptens, Protein Binding

Abstract

Assessment of skin sensitization hazard of chemicals currently depends on in vivo methods. Considering the forthcoming European Union ban on in vivo testing of cosmetic/toiletry ingredients, the search for alternative non-animal approaches is an urgent challenge for investigators today. For the skin sensitization end-point the concept of protein/peptide haptenation, that could reflect the chemical modification of skin proteins, crucial to form immunogenic structures, has been used to develop in vitro assays to predict the sensitization potential of new chemicals. Using glutathione and nucleophile-containing synthetic peptides we confirmed previously the possibility to screen for skin sensitization potential by measuring peptide depletion following incubation with a set of allergens and non-allergens. In this paper, additionally to our model development work, we performed mechanistic based studies to confirm the peptide reactivity concept under the specific conditions used for haptens in the screening assay as they were somewhat different from the ones expected to happen in vivo. Following the reactivity toward the peptides of 13C labelled MI and MCI, models of true haptens, we showed that the initial step leading to the biological end-point was similar regardless the conditions used even if final adducts could be different. This confirmed the validity of the peptide reactivity concept as well as the choice made to look at peptide depletion rather than at adduct formation.

Published

2009

4. Ionic liquid-coated immobilized lipase for the synthesis of methylglucose fatty acid esters

Author

Julien Mutschler, Thierry Rausis, Isabelle Vanessa Mohrenz, Daniel Zufferey, Jean-Marc Bourgeois, Fabian Fischer, and Christèle Bastian

Subjects

biology, biology.organism_classification, Pollution, Lauric acid, chemistry.chemical_compound, Oleic acid, chemistry, Capric Acid, Hexafluorophosphate, Ionic liquid, biology.protein, Environmental Chemistry, Organic chemistry, lipids (amino acids, peptides, and proteins), Candida antarctica, Lipase, Acrylic acid

Abstract

A homologous series of biosurfactants has been synthesized by a novel sustainable biotransformation technique and compared with three other enzymatic processes. 6-O-Alkanoyl-methyl-α-D-glucopyranosides were obtained by lipase mediated esterification of methyl-α-D-glucopyranoside with capric acid C10:0, lauric acid C12:0, myristic acid C14:0, palmitic acid C16:0, and oleic acid C18:1. Solvent free transformations were compared with the use of ionic liquids and organic solvents. The lipase from Candida antarctica B, immobilized on macroporous acrylic acid beads (Novozyme 435), was employed either untreated or coated with small amounts of ionic liquids. This resulted in superior efficiencies (80%) with 1-butyl-4-methylpyridine hexafluorophosphate [4bmpy][PF6] and broader substrate tolerance in comparison to solvent free transformation. The results show a positive correlation with increasing polarity of the ionic liquids used as liquid film-coating, which was in opposition to the use of the same ionic liquid as solvent. The analysis of the ionic liquid film coated catalyst carriers was performed by optical and scanning electron microscopy (SEM).

Published

2009